Members Can Post Anonymously On This Site
-
Similar Topics
-
By NASA
3 min read
Preparations for Next Moonwalk Simulations Underway (and Underwater)
El piloto de pruebas de la NASA Nils Larson inspecciona el avión de investigación F-15D de la agencia en el Centro de Investigación de Vuelo Armstrong de la NASA en Edwards, California, antes de un vuelo de calibración para una sonda de detección de impactos de campo cercano recién instalada. Montada en el F-15D, la sonda está diseñada para medir las ondas de choque generadas por el silencioso avión supersónico X-59 durante el vuelo. Los datos ayudarán a los investigadores a comprender mejor cómo se comportan las ondas de choque en las proximidades de la aeronave, apoyando la misión Quesst de la NASA para permitir vuelos supersónicos silenciosos sobre tierra.NASA/Steve Freeman El piloto de pruebas de la NASA Nils Larson inspecciona el avión de investigación F-15D de la agencia en el Centro de Investigación de Vuelo Armstrong de la NASA en Edwards, California, antes de un vuelo de calibración para una sonda de detección de impactos de campo cercano recién instalada. Montada en el F-15D, la sonda está diseñada para medir las ondas de choque generadas por el silencioso avión supersónico X-59 durante el vuelo. Los datos ayudarán a los investigadores a comprender mejor cómo se comportan las ondas de choque en las proximidades de la aeronave, apoyando la misión Quesst de la NASA para permitir vuelos supersónicos silenciosos sobre tierra.NASA/Steve Freeman El avión de investigación F-15D de la NASA realiza un vuelo de prueba cerca de Edwards, California, con una sonda de detección de impactos de campo cercano. Idéntica a una versión previamente volada que estaba prevista como reserva, esta nueva sonda captará datos de ondas de choque cerca del X-59 mientras vuela a velocidad más rápida que la del sonido apoyando la misión Quesst de la NASA.NASA/Jim Ross El avión de investigación F-15D de la NASA realiza un vuelo de prueba cerca de Edwards, California, con una sonda de detección de impactos de campo cercano. Idéntica a una versión previamente volada que estaba prevista como reserva, esta nueva sonda captará datos de ondas de choque cerca del X-59 mientras vuela a velocidad más rápida que la del sonido apoyando la misión Quesst de la NASA.NASA/Jim Ross Read this story in English here.
Cuando se prueba un avión de última generación de la NASA, se necesitan herramientas especializadas para realizar pruebas y capturar datos, pero si esas herramientas necesitan mantenimiento, hay que esperar hasta que se reparen. A menos que tengas un respaldo. Por eso, recientemente la NASA ha calibró una nueva sonda de deteccíon de impactos para capturar datos de ondas de choque cuando el silencioso avión de investigación supersónico X-59 de la agencia inicie sus vuelos de prueba.
Cuando un avión vuela más rápido que la velocidad del sonido, produce ondas de choque que viajan a través del aire, creando fuertes estampidos sónicos. El X-59 desviará esas ondas de choque, produciendo sólo un silencioso golpe supersónico. En las últimas semanas, la NASA ha completado los vuelos de calibración de una nueva sonda de detección de impactos de campo cercano, un aparato en forma de cono que captará datos sobre las ondas de choque que generará el X-59.
Esta sonda está montada en un avión de investigación F-15D que volará muy cerca del X-59 para recopilar los datos que necesita la NASA. La nueva unidad servirá como la sonda de campo cercano principal de la NASA, con un modelo idéntico desarrollado por la NASA el año pasado actuará como reserva montada en otro F-15B.
Las dos unidades significan que el equipo del X-59 tiene una alternativa lista en caso de que la sonda principal necesite mantenimiento o reparaciones. Para pruebas de vuelo como las del X-59, donde la recopilación de datos es crucial y las operaciones giran en torno a plazos ajustados, condiciones meteorológicas y otras variables, las copias de respaldo de los equipos críticos ayudan a garantizar la continuidad, mantener los plazos y preservar la eficiencia de las operaciones.
“Si le ocurre algo a la sonda, como una falla en unsensor, no hay una solución fácil,” explica Mike Frederick, investigador principal de la sonda en el Centro de Investigación de Vuelos Armstrong de la NASA en Edwards, California. “El otro factor es el propio avión. Si uno necesita mantenimiento, no queremos retrasar los vuelos del X-59.”
Para calibrar la nueva sonda, el equipo midió las ondas de choque de un avión de investigación F/A-18 de la NASA. Los resultados preliminares indicaron que la sonda captó con éxito los cambios de presión asociados a las ondas de choque, de acuerdo con las expectativas del equipo. Frederick y su equipo ahora están revisando los datos para confirmar que se alinean con los modelos matemáticos en tierra y cumplen las normas de precisión requeridas para los vuelos X-59.
Los investigadores de la NASA en Armstrong se están preparando para vuelos adicionales con las sondas principal y de respaldo en sus aviones F-15. Cada avión volará a velocidad supersónico y recopilará datos de las ondas de choque del otro. El equipo está trabajando para validar tanto la sonda principal como la de respaldo para confirmar la redundancia total;en otras palabras, asegurarse de que tengan un respaldo fiable y listo para usar.
Artículo Traducido por: Priscila Valdez
Share
Details
Last Updated May 13, 2025 EditorDede DiniusContactNicolas Cholulanicolas.h.cholula@nasa.gov Related Terms
Aeronáutica NASA en español Explore More
5 min read Las carreras en la NASA despegan con las pasantías
Article 1 day ago 4 min read El X-59 de la NASA completa las pruebas electromagnéticas
Article 2 months ago 11 min read La NASA identifica causa de pérdida de material del escudo térmico de Orion de Artemis I
Article 5 months ago Keep Exploring Discover More Topics From NASA
Armstrong Flight Research Center
Humans in Space
Climate Change
Solar System
View the full article
-
By Space Force
Dr. Troy E. Meink was confirmed May 13 by the Senate as 27th Secretary of the Air Force.
View the full article
-
By NASA
Explore This Section Science Science Activation Take a Tour of the Cosmos with… Overview Learning Resources Science Activation Teams SME Map Opportunities More Science Activation Stories Citizen Science 4 min read
Take a Tour of the Cosmos with New Interactives from NASA’s Universe of Learning
Ready for a tour of the cosmos? NASA’s Universe of Learning has released a new, dynamic way for lifelong learners to explore NASA’s breathtaking images of the universe—ViewSpace interactive Image Tours. ViewSpace has an established track record of providing museums, science centers, libraries, and other informal learning environments with free, web-based videos and digital interactives—like its interactive Image Sliders. These new Image Tours are another unique experience from NASA’s Universe of Learning, created through a collaboration between scientists that operate NASA telescopes and experts well-versed in the most modern methods of learning. Hands-on, self-directed learning resources like these have long been valued by informal learning sites as effective means for engaging and intriguing users with the latest discoveries from NASA’s space telescope missions—while encouraging lifelong learners to continue their passionate exploration of the stars, galaxies, and distant worlds.
With these new ViewSpace Image Tours, visitors can take breathtaking journeys through space images that contain many exciting stories. The “Center of the Milky Way Galaxy” Tour, for example, uses breathtaking images from NASA’s Hubble, Spitzer, and Chandra X-ray telescopes and includes eleven Tour Stops, where users can interact with areas like “the Brick”—a dense, dark cloud of hydrogen molecules imaged by Spitzer. Another Tour Stop zooms toward the supermassive black hole, Sagittarius A*, offering a dramatic visual journey to the galaxy’s core.
In other tours, like the “Herbig-Haro 46/47” Tour, learners can navigate through points of interest in an observation from a single telescope mission. In this case, NASA’s James Webb Space Telescope provides the backdrop where lifelong learners can explore superheated jets of gas and dust being ejected at tremendous speeds from a pair of young, forming stars. The power of Webb turns up unexpected details in the background, like a noteworthy distant galaxy famous for its uncanny resemblance to a question mark. Each Interactive Image Tour allows people to examine unique features through videos, images, or graphical overlays to identify how those features have formed in ways that static images alone can’t convey.
These tours, which include detailed visual descriptions for each Tour Stop, illuminate the science behind the beauty, allowing learners of all ages to develop a greater understanding of and excitement for space science, deepening their engagement with astronomy, regardless of their prior experience. Check out the About the Interactives page on the ViewSpace website for a detailed overview of how to use the Image Tours.
ViewSpace currently offers three Image Tours, and the collection will continue growing:
Center of the Milky Way Galaxy:
Peer through cosmic dust and uncover areas of intense activity near the Milky Way’s core, featuring imagery from the Hubble Space Telescope, Spitzer Space Telescope, and the Chandra X-ray Observatory.
Herbig-Haro 46/47:
Witness how a tightly bound pair of young stars shapes their nebula through ejections of gas and dust in an image from the James Webb Space Telescope.
The Whirlpool Galaxy:
Explore the iconic swirling arms and glowing core of a stunning spiral galaxy, with insights into star formation, galaxy structure, and more in a Hubble Space Telescope image.
“The Image Tours are beautiful, dramatic, informational, and easy to use,” explained Sari Custer, Chief of Science and Curiosity at Arizona Science Center. “I’m excited to implement them in my museum not only because of the incredible images and user-friendly features, but also for the opportunity to excite and ignite the public’s curiosity about space.”
NASA’s Universe of Learning is supported by NASA under cooperative agreement award number NNX16AC65A and is part of NASA’s Science Activation Portfolio. Learn more about how Science Activation connects NASA science experts, real content, and experiences with community leaders to do science in ways that activate minds and promote deeper understanding of our world and beyond: https://science.nasa.gov/learn/about-science-activation/
Select views from various Image Tours. Clockwise from top left: The Whirlpool Galaxy, Center of the Milky Way Galaxy, Herbig-Haro 46/47, detail view in the Center of the Milky Way Galaxy. Share
Details
Last Updated May 13, 2025 Editor NASA Science Editorial Team Related Terms
Science Activation Astrophysics For Educators Explore More
5 min read NASA’s Webb Reveals New Details, Mysteries in Jupiter’s Aurora
Article
1 day ago
2 min read Hubble Comes Face-to-Face with Spiral’s Arms
Article
4 days ago
7 min read NASA’s Hubble Pinpoints Roaming Massive Black Hole
Article
5 days ago
Keep Exploring Discover More Topics From NASA
James Webb Space Telescope
Webb is the premier observatory of the next decade, serving thousands of astronomers worldwide. It studies every phase in the…
Perseverance Rover
This rover and its aerial sidekick were assigned to study the geology of Mars and seek signs of ancient microbial…
Parker Solar Probe
On a mission to “touch the Sun,” NASA’s Parker Solar Probe became the first spacecraft to fly through the corona…
Juno
NASA’s Juno spacecraft entered orbit around Jupiter in 2016, the first explorer to peer below the planet’s dense clouds to…
View the full article
-
By NASA
5 min read
Preparations for Next Moonwalk Simulations Underway (and Underwater)
ICON’s next generation Vulcan construction system 3D printing a simulated Mars habitat for NASA’s Crew Health and Performance Exploration Analog (CHAPEA) missions.ICON One of the keys to a sustainable human presence on distant worlds is using local, or in-situ, resources which includes building materials for infrastructure such as habitats, radiation shielding, roads, and rocket launch and landing pads. NASA’s Space Technology Mission Directorate is leveraging its portfolio of programs and industry opportunities to develop in-situ, resource capabilities to help future Moon and Mars explorers build what they need. These technologies have made exciting progress for space applications as well as some impacts right here on Earth.
The Moon to Mars Planetary Autonomous Construction Technology (MMPACT) project, funded by NASA’s Game Changing Development program and managed at the agency’s Marshall Space Flight Center in Huntsville, Alabama, is exploring applications of large-scale, robotic 3D printing technology for construction on other planets. It sounds like the stuff of science fiction, but demonstrations using simulated lunar and Martian surface material, known as regolith, show the concept could become reality.
Lunar 3D printing prototype.Contour Crafting With its partners in industry and academic institutions, MMPACT is developing processing technologies for lunar and Martian construction materials. The binders for these materials, including water, could be extracted from the local regolith to reduce launch mass. The regolith itself is used as the aggregate, or granular material, for these concretes. NASA has evaluated these materials for decades, initially working with large-scale 3D printing pioneer, Dr. Behrokh Khoshnevis, a professor of civil, environmental and astronautical engineering at the University of Southern California in Los Angeles.
Khoshnevis developed techniques for large-scale extraterrestrial 3D printing under the NASA Innovative Advanced Concepts (NIAC) program. One of these processes is Contour Crafting, in which molten regolith and a binding agent are extruded from a nozzle to create infrastructure layer by layer. The process can be used to autonomously build monolithic structures like radiation shielding and rocket landing pads.
Continuing to work with the NIAC program, Khoshnevis also developed a 3D printing method called selective separation sintering, in which heat and pressure are applied to layers of powder to produce metallic, ceramic, or composite objects which could produce small-scale, more-precise hardware. This energy-efficient technique can be used on planetary surfaces as well as in microgravity environments like space stations to produce items including interlocking tiles and replacement parts.
While NASA’s efforts are ultimately aimed at developing technologies capable of building a sustainable human presence on other worlds, Khoshnevis is also setting his sights closer to home. He has created a company called Contour Crafting Corporation that will use 3D printing techniques advanced with NIAC funding to fabricate housing and other infrastructure here on Earth.
Another one of NASA’s partners in additive manufacturing, ICON of Austin, Texas, is doing the same, using 3D printing techniques for home construction on Earth, with robotics, software, and advanced material.
Construction is complete on a 3D-printed, 1,700-square-foot habitat that will simulate the challenges of a mission to Mars at NASA’s Johnson Space Center in Houston, Texas. The habitat will be home to four intrepid crew members for a one-year Crew Health and Performance Analog, or CHAPEA, mission. The first of three missions begins in the summer of 2023. The ICON company was among the participants in NASA’s 3D-Printed Habitat Challenge, which aimed to advance the technology needed to build housing in extraterrestrial environments. In 2021, ICON used its large-scale 3D printing system to build a 1,700 square-foot simulated Martian habitat that includes crew quarters, workstations and common lounge and food preparation areas. This habitat prototype, called Mars Dune Alpha, is part of NASA’s ongoing Crew Health and Performance Exploration Analog, a series of Mars surface mission simulations scheduled through 2026 at NASA’s Johnson Space Center in Houston.
With support from NASA’s Small Business Innovation Research program, ICON is also developing an Olympus construction system, which is designed to use local resources on the Moon and Mars as building materials.
The ICON company uses a robotic 3D printing technique called Laser Vitreous Multi-material Transformation, in which high-powered lasers melt local surface materials, or regolith, that then solidify to form strong, ceramic-like structures. Regolith can similarly be transformed to create infrastructure capable of withstanding environmental hazards like corrosive lunar dust, as well as radiation and temperature extremes.
The company is also characterizing the gravity-dependent properties of simulated lunar regolith in an experiment called Duneflow, which flew aboard a Blue Origin reusable suborbital rocket system through NASA’s Flight Opportunities program in February 2025. During that flight test, the vehicle simulated lunar gravity for approximately two minutes, enabling ICON and researchers from NASA to compare the behavior of simulant against real regolith obtained from the Moon during an Apollo mission.
Learn more: https://www.nasa.gov/space-technology-mission-directorate/
Facebook logo @NASATechnology @NASA_Technology Keep Exploring Discover More …
Space Technology Mission Directorate
NASA Innovative Advanced Concepts
STMD Solicitations and Opportunities
Technology
Share
Details
Last Updated May 13, 2025 EditorLoura Hall Related Terms
Space Technology Mission Directorate NASA Innovative Advanced Concepts (NIAC) Program Technology View the full article
-
By NASA
4 min read
Preparations for Next Moonwalk Simulations Underway (and Underwater)
The 2025 internship class at NASA’s Armstrong Flight Research Center in Edwards, California, stand in front of the historic X-1E aircraft on display at the center. From left are interns: Tyler Requa, Gokul Nookula, Madeleine Phillips, Oscar Keiloht Chavez Ramirez, and Nicolas Marzocchetti.NASA/Steve Freeman Lee esta historia en español aquí.
Do you dream of working for NASA and contributing to exploration and innovation for the benefit of humanity? The agency’s internship programs provide high school and college students opportunities to advance NASA’s mission in aeronautics, science, technology, and space.
Claudia Sales, Kassidy McLaughlin, and Julio Treviño started their careers as interns at NASA’s Armstrong Flight Research Center in Edwards, California, where they continue to explore the secrets of the universe. Their journeys highlight the long-term impact of the NASA’s science, technology, engineering, and mathematics (STEM) programs.
Claudia Sales, NASA’s acting X-59 deputy chief engineer and airworthiness certification lead for the quiet supersonic research aircraft, supports ground testing for Acoustic Research Measurements (ARM) flights. The test campaign to evaluate technologies that reduce aircraft noise was conducted at NASA’s Armstrong Flight Research Center in Edwards, California, in 2018.NASA/Ken Ulbrich Claudia Sales
“I knew since I was a child that I wanted to work for NASA,” said Claudia Sales, acting X-59 deputy chief engineer X-59 deputy chief engineer and airworthiness certification lead for the agency’s quiet supersonic research aircraft.
Sales’ journey at NASA started in 2005 as a Pathways intern, a NASA work-study (co-op) program. She worked in propulsion and structures branches and supported such projects as the X-43A hypersonic research aircraft (Hyper-X) and the X-37 reusable orbital launch vehicle, where she had the opportunity to perform calculations for thermal estimations and trajectory analyses. She also completed design work with NASA Armstrong’s Experimental Fabrication Shop.
“It had been a dream of mine to be a part of unique, one-of-a-kind flight research projects,” Sales said. “My mentor was amazing at exposing me to a wide variety of experiences and working on something unique to one day be implemented on an air vehicle to make the world a better place.”
Claudia Sales, NASA’s acting X-59 deputy chief engineer and airworthiness certification lead for the quiet supersonic research aircraft, stands in front of a Gulfstream G-III, also known as Subsonic Research Aircraft Testbed (SCRAT). Sales supported ground testing as test conductor for Acoustics Research Measurements (ARM) flights at NASA’s Armstrong Research Flight Center in Edwards, California, in 2018.NASA/Ken Ulbrich NASA’s flight systems engineer, Kassidy Mclaughlin conducts environmental testing on an instrumentation pallet. The pallet was used during NASA’s National Campaign project in 2020 at NASA’s Armstrong Flight Research Center in Edwards, California.NASA/Lauren Hughes Kassidy McLaughlin
Similarly, flight systems engineer Kassidy McLaughlin discovered that mentorship and hands-on experience as an intern were key to her professional development. She currently leads the development of a ground control station at NASA Armstrong.
In high school and college, McLaughlin enrolled in STEM classes, knowing she wanted to pursue a career in engineering. Encouraged by her mother to apply for a NASA internship, McLaughlin’s career began in 2014 as an intern for NASA Armstrong’s Office of STEM Engagement. She later transitioned to the Pathways program.
“My mentor gave me the tools necessary, and encouraged me to ask questions,” McLaughlin said. “He helped show me that I was capable of anything if I set my mind to it.”
During five rotations as an intern, she worked on the Unmanned Aircraft Systems Integration in the National Airspace System (UAS in the NAS) project. “It is such a rewarding feeling to be in a control room when something you have worked on is flying,” McLaughlin said. That experience inspired her to pursue a career in mechanical engineering.
“NASA Armstrong offered something special when it came to the people,” McLaughlin said. “The culture at the center is so friendly and everyone is so welcoming.”
Julio Treviño, lead operations engineer for NASA’s Global Hawk SkyRange project, stands in front of an F/A-18 mission support aircraft at NASA’s Armstrong Flight Research Center in Edwards, California.NASA/Joshua Fisher Julio Treviño
Julio Treviño, lead operations engineer for NASA’s Global Hawk SkyRange project, ensures airworthiness throughout the planning, integration, and flight phases of unique systems and vehicles. He is also a certified mission controller, mission director, and flight test engineer for various agency aircraft.
Much like McLaughlin, Treviño began his journey in 2018 as a Pathway’s intern for the Dynamic and Controls branch at NASA Armstrong. That experience paved the way for success after graduating with a degree in mechanical engineering.
“As an intern, I had the opportunity to work on designing and creating a battery model for an all-electric aircraft,” Treviño said. “It was officially published as a NASA software model for use by anyone throughout the agency.”
Treviño also credits NASA’s culture and people as the best part of his internship. “I had very supportive mentors throughout my time as an intern and the fact that everyone here genuinely loves the work that they do is awesome,” he said.
2025 Application Deadlines
Every year, NASA provides more than 2,000 students the opportunity to impact the agency’s mission through hands-on internships. The 2025 application for fall is May 16, 2025.
To learn more about NASA’s internship programs, application deadlines, and eligibility, visit https://www.nasa.gov/learning-resources/internship-programs/
Share
Details
Last Updated May 12, 2025 EditorDede DiniusContactPriscila Valdezpriscila.valdez@nasa.govLocationArmstrong Flight Research Center Related Terms
Armstrong Flight Research Center Internships STEM Engagement at NASA Explore More
3 min read 5 Tips to Craft a Standout NASA Internship Application
Article 7 hours ago 3 min read NASA STEM Programs Ignite Curiosity Beyond the Classroom
Article 2 weeks ago 4 min read Robots, Rovers, and Regolith: NASA Brings Exploration to FIRST Robotics 2025
Article 2 weeks ago Keep Exploring Discover More Topics From NASA
Armstrong Flight Research Center
Humans in Space
Climate Change
Solar System
View the full article
-
-
Check out these Videos
Recommended Posts
Join the conversation
You can post now and register later. If you have an account, sign in now to post with your account.
Note: Your post will require moderator approval before it will be visible.